Liquid low-sodium silicate electrolyte used for a storage battery and manufactured by magnetization process, and the usage thereof

ABSTRACT

The present invention is related to a liquid low concentration sodium-containing silicate solution as electrolyte for lead-acid storage batteries and its applications. Such an electrolyte is prepared by mixing a silica gel containing 40˜60 wt % SiO 2 , the weight units of such a silica gel are 5˜15; add 15-25 weight units water and stir until the concentration of the mixture is 0.65˜0.85  0 Be′ measured by a Baumé densimeter, adjusting the pH value of this mixture to 1-4 using inorganic acid and magnetizing the mixture under 1000-6000 Gauss magnetic field for 5-10 minutes, stir the magnetized mixture until the viscosity of the mixture is less than 0.02 poise and finally obtain a liquid low concentration sodium-containing silicate solution. It can be used as electrolyte or activation solution for common or special lead-acid storage batteries. The lead-acid storage batteries using above electrolyte showed increased specific energy density up to more than 53 W/Kg. The cycle life is increased from 350 cycles for common lead-acid storage batteries to 400 cycles and even more than 1000 cycles for present batteries. Present batteries can be operated properly in a wide temperature range from −50° C.˜+60° C.

FIELD OF THE INVENTION

Present invention is related to a silicate electrolyte for lead-acid storage batteries, especially related to a low concentration sodium-containing silicate solution as electrolyte for lead-acid storage batteries, which is prepared by a magnetization technology, and the applications of this electrolyte.

BACKGROUND OF THE INVENTION

Normally lead-acid storage batteries use concentrated sulfuric acid diluted by distilled water as electrolyte. During the production of lead-acid storage batteries, due to the difficulties of treating acidic electrolyte, serious environment pollution is unavoidable in assembling, application and disuse. In addition to the releasing of acidic smog during the utilization of conventional open-mouth type lead-acid storage batteries, it corrodes the junction parts of the batteries and is not safe for application and transportation.

Recently, a gel electrolyte has been invented for improvement, such as the high-capacity gel electrolyte described in patent ZL90102355, it contains silica gel and sulfuric acid, the main component of the silica gel is SiO₂.xH₂O, wherein the weight ratio of sulfuric acid and SiO₂ is 4.5/10.5. Although the batteries using such gel electrolyte show high capacity and have advantages compared to the batteries using sulfuric acid electrolyte, this type gel electrolyte is still using a large amount of sulfuric acid, it also has the disadvantages such as environment pollution, unsafe transportation and application. In addition, the capacity of the batteries using gel-type electrolyte is 70% or even less of the capacity of the batteries using sulfuric acid electrolyte. Therefore, the specific energy density is relative low and internal resistance is high, it also losses water more easily then becomes harder and harder, which decrease the performance and cycle life of the batteries.

Before this invention, this inventor has proposed a complex silicate electrolyte without sodium (PCT/CN99/00116). It is composed of an organic silicane and sulfuric acid at certain weight ratio. It overcomes the main disadvantages of sulfuric acid electrolyte. However, after the long time practices of the inventor, it is found that due to using sodium silicate as gel, the filling of gel into the batteries is difficult. Sometimes the filling of the electrolyte needs several times. Thus, the filling processes become complicated. Such electrolyte cannot avoid the presence of sodium, once the concentration of the sodium in the silicate electrolyte exceeds 0.1%, the viscosity of the electrolyte is increased significantly and becomes mushy. The electrolyte tends to lost water during application and leads to harden and crack. It decreases the performance of the batteries obviously and leads to poor self-discharge and high internal resistance and short cycle life.

SUMMARY OF THE INVENTION

The object of the invention is to overcome the disadvantages of conventional lead-acid storage batteries of using sulfuric acid electrolyte, such as environment pollution and healthy hazard, and to solve the problems of the gel-type electrolyte proposed by this inventor, such as the difficult filling, the complicated technology, and especially the hardness and crack of the electrolyte; furthermore, it overcomes the disadvantages of gel electrolyte, such as low fluidity and high internal resistance. The present invention provides a low concentration sodium-containing silicate electrolyte prepared by a magnetization method, the batteries using such an electrolyte have comparable specific energy density to conventional sulfuric acid lead-acid storage batteries; the specific energy density is 53 w/kg, it has a long cycle life and a wide operating temperature range.

The present invention can be realized as the followings: a low concentration sodium-containing silicate electrolyte is prepared by a magnetization method, such a low concentration sodium-containing silicate electrolyte is prepared by the following steps:

-   1. Take a silica gel containing 40˜60 wt % SiO₂, the weight units of     such a sol are 5˜15; -   2. Add water into the silica gel and stir the mixture at the same     time, the weight units of water are 15˜25. Use a Baumé densimeter to     measure the concentration, add water until the concentration is     0.65˜0.85 ⁰Be′; the water mentioned here is distilled water or     deionized water. -   3. Add inorganic acid into the above mixture until pH value is 1-4.     Inorganic acid mentioned here is hydrochloric acid, oxalic acid and     sulfuric acid; -   4. Put the mixture obtained in Step 3 into a magnetic field of     1000-6000 Gauss for 5-10 minutes magnetization; the magnetic field     as described here is performed through a round tube made from a     magnetic material or is an ac/dc magnetic field; -   5. Stir the magnetized mixture obtained in Step 4, the type of     stirring includes manual stirring or mechanical stirring. The speed     for mechanical stirring is 700-1400 r/m. Stirring lasts 5-10 minutes     until the viscosity of the above mixture is decreased to 0.02 poise.

After these procedures, a liquid low concentration sodium-containing silicate electrolyte for lead-acid storage batteries is obtained.

The purity of the reagents used above is at least chemical pure, usually use reagent grade. The magnetic material used for making the round tube having 1000-6000 Gauss includes NdFeB, ferrite and other magnetic materials.

The electrolyte provided in the present invention can be used for common lead-acid storage batteries or specific lead-acid storage batteries, such as deep-sea lead-acid storage batteries.

Advantages of the present invention:

-   -   1. Besides the composition of the electrolyte is changed,         especially, due to the treatment by magnetization technology,         the viscosity of the electrolyte is less than 0.02 poise. It         becomes a liquid electrolyte and has good fluidity. It overcomes         the disadvantages of the present silicate gel electrolyte, i.e.         the high viscosity and the difficult filling processes, and         especially the hardness and crack of the electrolyte during         applications.     -   2. The specific energy density of the batteries using the liquid         low concentration sodium-containing silicate electrolyte         increases from 30˜40 W/kg to 53 W/kg.     -   3. The internal resistance of the batteries using the liquid low         concentration sodium-containing silicate electrolyte is very low         and the cycle life is increased from normal 350 times to         400˜1000 times and even more.     -   4. The batteries used the liquid low concentration         sodium-containing silicate electrolyte can be operated at wide         temperature range from −50° C.˜+60° C.     -   5. Due to improved rate performance of the liquid low         concentration sodium-containing silicate electrolyte, it         increased significantly from common 3-7 C. to 25-30 C.     -   6. Due to the application of the liquid low concentration         sodium-containing silicate solution described in the present         invention, no acidic smog is released during preparation and         application, the environment pollution is avoided completely         from using sulfuric acid, the hazard to the worker's healthy is         prevented and the corrosion problems of sulfuric acid to the         filling mouth and the leakage of the batteries outside shell are         solved. All these have positive meaning to the society and         improved economic profit.     -   7. The lead-acid storage batteries using the liquid low         concentration sodium-containing silicate electrolyte have         negligible self-discharge, it is good for long-time storage, the         storage period is increased from normal 8 months to 18 months.     -   8. The battery standard is 100.     -   9. The electrolyte provided in the present invention can be used         as electrolyte or activation solution for common lead-acid         storage batteries or as electrolyte or activation solution for         specific lead-acid storage batteries, such as deep-sea lead-acid         storage batteries.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a voltage diagram of the discharge curve of a lead-acid storage battery using the liquid low concentration sodium-containing silicate solution as electrolyte.

FIG. 2 is a current diagram of the discharge curve a lead-acid storage battery using the liquid low concentration sodium-containing silicate solution as electrolyte.

DESCRIPTION OF THE PREFERRED EMBODIMENTS EXAMPLE 1

Prepare the liquid low concentration sodium-containing silicate solution as electrolyte for a 12V100 Ah3 C (300 A) lead-acid storage battery.

-   (1). Take 1.5 kg silica gel (commercial product No.: S-40 at reagent     purity) containing 40˜60 wt % SiO2, it corresponds a 5 units weight; -   (2). Drop distilled water or deionized water into the above silica     gel and stir the mixture at the same time, until the value read in     Baumé densimeter is 0.65 ⁰Be′; totally the volume of the water is     about 4 liters; -   (3). Add 98.3%, density 1.834 sulfuric acid into the solution     mentioned above until pH value is 1.32, the volume of sulfuric acid     is about 2 liter; -   (4). Put the silicate mixture obtained in the above steps into the     center position of a magnetic field of 3000-4000 Gauss for 8 minutes     magnetization to obtain a magnetized mixture, the magnetic field is     performed by a 800 mm diameter×600 mm high round tube made from     NdFeB; -   (5). Stir the magnetized mixture obtained in the above step     mechanically at a speed of 700˜1400 r/m for about 10 minutes until     the viscosity of the above mixture is less than 0.02 poise.

Finally, a liquid low concentration sodium-containing silicate solution as electrolyte for a 12V100 Ah lead-acid storage battery is prepared.

Using the electrolyte prepared by the above procedures, the lead-acid storage battery showed a standard evaluated value of 100, the power density is increased to 53 W/kg, the cycle life of the lead-acid storage batteries is increased to more than 400 times, it can be used properly at a wide temperature range of −50° C.˜+60° C. and the rate performance is improved significantly from common 3-7 C. to 30 C. The self-discharge of the batteries can be negligible, and it can be used even after 18 months storage. The voltage diagram of the discharge curve of a lead-acid storage battery using the liquid low concentration sodium-containing silicate solution as electrolyte is shown in FIG. 1 and the current diagram of the discharge curve a lead-acid storage battery using the liquid low concentration sodium-containing silicate solution as electrolyte is shown in FIG. 2.

EXAMPLE 2

Prepare a liquid low concentration sodium-containing silicate solution as electrolyte for a 12V12 Ah lead-acid storage battery.

-   (1). Take 5 kg silica gel (commercial product No.: S-40 at reagent     purity) containing 60 wt % SiO₂, it corresponds a 5 units weight; -   (2). Drop distilled water or deionized water into the above silica     gel and stir the mixture at the same time, until the value read in     Baumé densimeter is 0.65 ⁰Be′; totally the volume of the water is     about 15 liters; -   (3). Add 98.3%, density 1.834 sulfuric acid into the solution     mentioned above until the pH value is 1.31, the volume of sulfuric     acid is about 2 liter; -   (4). Put the silicate mixture obtained in the above steps into the     center position of a magnetic field of 4000-5000 Gauss for 6 minutes     magnetization to obtain a magnetized mixture, the magnetic field is     performed by a 800 mm diameter x 800 mm high round tube made from     NdFeB; -   (5). Stir the magnetized mixture obtained in the above step     mechanically at a speed of 700˜1400 r/m for 6 minutes until the     viscosity of the above mixture is less than 0.02 poise.

Finally, a liquid low concentration sodium-containing silicate solution as electrolyte for a 12V12 Ah lead-acid storage battery is prepared.

Using the electrolyte prepared by above procedures, the lead-acid storage battery showed a standard evaluated value of 100, the power density is increased to more than 53 W/kg, the cycle life of the lead-acid storage batteries is increased to more than 1000 times, it can be used properly at a wide temperature range of −50° C.˜+60° C. and the rate performance is improved significantly from common 3-7 C. to more than 30 C. The self-discharge of the batteries can be negligible, and it can be used even after 18 months storage. 

1. A magnetically treated low sodium silicate concentration lead-acid storage battery electrolyte, consisting essentially of: a solution which has been treated in a magnetic field of 3000˜4000 Gauss for about 8 minutes, and wherein this solution comprises 1.5 Kgm of a silica gel containing 40 wt % SiO₂, 4 liters of distilled or deionized water, 2 liters of 98.3%, density 1.834 sulfuric acid, and which has pH value of 1.32 and viscosity of less than 0.02 poise.
 2. A magnetically treated low sodium silicate concentration lead-acid storage battery electrolyte, consisting essentially of: a solution which has been treated in a magnetic field of 4000˜5000 Gause for about 6 minutes, and wherein the solution comprises 5 Kgm of a silica gel containing 60 wt % SiO₂, 15 liters of distilled or deionized water and 2 liters of 98.3%, density 1.834 sulfuric acid, and has pH value of 1.31 and viscosity of less than 0.02 poise. 